Abstract: Systems and methods for activating polymer within a water treatment facility. The system includes a polymer makedown unit for blending and mixing diluent and polymer, the makedown unit including a polymer pump and a back pressure regulator operatively connected to the polymer pump. The system further includes a source of polymer including a sealed storage container for the polymer capable of being pressurized with compressed gas. The container includes a chamber for storing polymer under pressure, the container being capable of being pressurized by compressed gas, and an outlet for outputting pressurized polymer to the polymer makedown unit. There may also be provided a desiccant filter connected by a pressurized gas line for providing dry compressed gas into the container.

Abstract: A rolled film capacitor includes a first dielectric layer of high crystallinity polypropylene and a first metalized electrode stack adjacent to and contacting the first dielectric layer. The first metalized electrode stack includes a first substrate located between first and second metallic films. The capacitor also includes a second dielectric layer of high crystallinity polypropylene, and a second metalized electrode stack adjacent to and contacting the second dielectric layer, the second metalized electrode stack comprising a second substrate located between third and fourth metallic films.

Abstract: Systems and methods for activating polymer within a water treatment facility. The system includes a polymer makedown unit for blending and mixing diluent and polymer, the makedown unit including a polymer pump and a back pressure regulator operatively connected to the polymer pump. The system further includes a source of polymer including a sealed storage container for the polymer capable of being pressurized with compressed gas. The container includes a chamber for storing polymer under pressure, the container being capable of being pressurized by compressed gas, and an outlet for outputting pressurized polymer to the polymer makedown unit. There may also be provided a desiccant filter connected by a pressurized gas line for providing dry compressed gas into the container.

Abstract: There is provided an electromagnetic (EM) shielding composite and its method of manufacture having low observability and a low loading level, e.g., 1.5 weight percent, of nanotubes mixed in a base host polymer, wherein the EM shielding composite is an effective shield and absorber for broadband plane wave EM radiation. The loading levels of nanotubes are sufficiently low to leave the mechanical properties of the base polymers essentially unchanged, making this approach widely applicable to a broad range of applications.

Abstract: The present invention is a capacitor of a triphenyl phosphine oxide film as a base dielectric. More specifically, the base dielectric film is selected from the group consisting of Bisphenol-A (Bis-A PEPO). 4′,4′-biphenol (BP-PEPO), and Hydroquinone (HQ-PEPO). TPPO based polymers have a very high breakdown strength, dielectric constant, low dissipation factor and high energy density. An ultra-thin coating can leverage the capabilities of this new dielectric, and potentially other commercial polymer films, to make possible energy storage in excess of 1 J/cc. The triphenyl phosphine oxide film can be fabricated containing a conducting PolyANiline (PAN) polymer layer located between the electrode and core polymer, or by being dip coated with PAN.

Abstract: There is provided an electromagnetic (EM) shielding composite and its method of manufacture having low observability and a low loading level, e.g., 1.5 weight percent, of nanotubes mixed in a base host polymer, wherein the EM shielding composite is an effective shield and absorber for broadband plane wave EM radiation. The loading levels of nanotubes are sufficiently low to leave the mechanical properties of the base polymers essentially unchanged, making this approach widely applicable to a broad range of applications.

Abstract: An electromagnetic shielding composite having nanotubes and a method of making the same are disclosed. According to one embodiment of the present invention, the composite for providing electromagnetic shielding includes a polymeric material and an effective amount of oriented nanotubes for EM shielding, the nanotubes being oriented when a shearing force is applied to the composite. According to another embodiment of the present invention, the method for making an electromagnetic shielding includes the steps of (1) providing a polymer with an amount of nanotubes, and (2) imparting a shearing force to the polymer and nanotubes to orient the nanotubes.

Abstract: An electrical film capacitor in which a pair of metal film electrodes and a porous layer are wound into an assembly, and in which the porous layer serves to wick a liquid dielectric into the wound assembly. The liquid dielectric is an adipic acid ester such as di-isononyl adipate. Mono-isopropyl biphenyl can be added as well.

Abstract: An electrical capacitor having two capacitively coupled electrode structures, each electrode structure having first and second generally planar conductive portions respectively having higher and lower current-carrying capacity, the electrode structures having configurations and relative orientations such that a line normal to the first conductive portion of one electrode structure does not intersect the first conductive portion of the other electrode structure.